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    • 3. 发明申请
    • TERMINAL SUPPORTING PEER-TO-PEER COMMUNICATION, AND COMMUNICATION AND BILLING METHODS BASED ON THE SAME
    • 支持对等通信的终端,以及基于该通信的通信和计费方法
    • US20100210238A1
    • 2010-08-19
    • US12767277
    • 2010-04-26
    • Sung Rae ChoByung Jo KimSeong Su Park
    • Sung Rae ChoByung Jo KimSeong Su Park
    • H04W60/00H04W4/24
    • H04W88/02H04W76/14H04W88/06
    • A terminal supporting peer-to-peer (P2P) communication, wherein a transceiver of the terminal is implemented to support P2P communication with an adjacent terminal in the same cell. Thus, when short-range communication is possible, the terminal performs P2P communication directly with the adjacent terminal, not via a base station. Consequently, when terminals use different mobile telecommunication service providers or there is no base station network, the terminals can be used for short-range communication. More particularly, when a receiving channel state becomes satisfactory while communication with an adjacent terminal is being performed via a base station, the terminal directly switches to a P2P communication mode and performs communication with the adjacent terminal. On the contrary, when the receiving channel state deteriorates while communication with the adjacent terminal is being performed in the P2P communication mode, the terminal directly switches to a base station communication mode and performs communication with the adjacent terminal.
    • 一种支持对等(P2P)通信的终端,其中终端的收发机被实现为支持与同一小区中的相邻终端的P2P通信。 因此,当短距离通信成为可能时,终端不直接通过基站直接与相邻终端进行P2P通信。 因此,当终端使用不同的移动电信服务提供商或者没有基站网络时,终端可以用于短距离通信。 更具体地,当通过基站进行与相邻终端的通信时,当接收信道状态变得令人满意时,终端直接切换到P2P通信模式并与相邻终端进行通信。 相反,当在P2P通信模式中正在执行与相邻终端的通信时,当接收信道状态恶化时,终端直接切换到基站通信模式并与相邻终端进行通信。
    • 4. 发明授权
    • Terminal supporting peer-to-peer communication, and communication and billing methods based on the same
    • 终端支持对等通信,以及基于通信和计费的方法
    • US07734292B2
    • 2010-06-08
    • US11518819
    • 2006-09-11
    • Sung Rae ChoByung Jo KimSeong Su Park
    • Sung Rae ChoByung Jo KimSeong Su Park
    • H04W36/00
    • H04W88/02H04W76/14H04W88/06
    • A terminal supporting peer-to-peer (P2P) communication, wherein a transceiver of the terminal is implemented to support P2P communication with an adjacent terminal in the same cell. Thus, when short-range communication is possible, the terminal performs P2P communication directly with the adjacent terminal, not via a base station. Consequently, when terminals use different mobile telecommunication service providers or there is no base station network, the terminals can be used for short-range communication. More particularly, when a receiving channel state becomes satisfactory while communication with an adjacent terminal is being performed via a base station, the terminal directly switches to a P2P communication mode and performs communication with the adjacent terminal. On the contrary, when the receiving channel state deteriorates while communication with the adjacent terminal is being performed in the P2P communication mode, the terminal directly switches to a base station communication mode and performs communication with the adjacent terminal.
    • 一种支持对等(P2P)通信的终端,其中终端的收发机被实现为支持与同一小区中的相邻终端的P2P通信。 因此,当短距离通信成为可能时,终端不直接通过基站直接与相邻终端进行P2P通信。 因此,当终端使用不同的移动电信服务提供商或者没有基站网络时,终端可以用于短距离通信。 更具体地,当通过基站进行与相邻终端的通信时,当接收信道状态变得令人满意时,终端直接切换到P2P通信模式并与相邻终端进行通信。 相反,当在P2P通信模式中正在执行与相邻终端的通信时,当接收信道状态恶化时,终端直接切换到基站通信模式并与相邻终端进行通信。
    • 7. 发明授权
    • Method and apparatus for transmitting data based on OFDM
    • 基于OFDM传输数据的方法和装置
    • US07548564B2
    • 2009-06-16
    • US11299184
    • 2005-12-09
    • Seok Bong HyunByung Jo KimSeong Su Park
    • Seok Bong HyunByung Jo KimSeong Su Park
    • H04J1/00
    • H04L1/0007H04L1/0017H04L1/009
    • Provided is a method and apparatus for transmitting data based on OFDM (Orthogonal Frequency Division Multiplexing). The method includes: forming a plurality of packets suitable for a selected transmission mode from data input to a transmitter; determining a transfer rate of the data; when the data transfer rate is determined to be low and synchronous connection oriented link should be maintained, dividing each of the plurality of packets into a plurality of sub-packets; and transmitting the divided sub-packets, wherein when the divided sub-packets are transmitted, a power supply duration of the transmitter is reduced by using a DPM (dynamic power management) or fine state control unit.
    • 提供了一种用于基于OFDM(正交频分复用)发送数据的方法和装置。 该方法包括:从数据输入到发射机,形成适合所选传输模式的多个分组; 确定数据的传输速率; 当数据传输速率被确定为低并且应当保持同步连接定向链路时,将多个分组中的每一个分成多个子分组; 并且发送分割的子分组,其中当分配的分组被发送时,通过使用DPM(动态功率管理)或精细状态控制单元来减少发射机的供电持续时间。
    • 8. 发明授权
    • Method and apparatus for providing dual variable clocks for low-power wireless packet communication
    • 提供用于低功率无线分组通信的双可变时钟的方法和装置
    • US07525999B2
    • 2009-04-28
    • US11299203
    • 2005-12-09
    • Jeen HurSun Hee KimByung Jo KimSeong Su ParkSang Baek HanHoo Sung Lee
    • Jeen HurSun Hee KimByung Jo KimSeong Su ParkSang Baek HanHoo Sung Lee
    • H04J3/06
    • H04W52/0293Y02D70/142Y02D70/144Y02D70/146
    • Provided is a wireless packet communication method, and more particularly, a method and apparatus for enabling low-power communication by providing separate driving clocks optimized for a lower part for performing the function of a physical layer part and an upper part for performing the function of an upper layer above the physical layer in a wireless packet communication system. The method includes a first clock providing step of measuring actual data transmission and reception rates at a predetermined period, setting up a frequency (F1) of a first clock based on the measured rates, and providing the first clock to the upper part and a second clock providing step of determining a transfer mode of the wireless packet communication system, detecting a frequency (F2) of a second clock selected according to the determined transfer mode, and providing the second clock to the lower part.
    • 本发明提供一种无线分组通信方法,更具体地说,涉及一种能够实现低功率通信的方法和装置,该方法和装置通过提供针对下部优化的单独的驱动时钟,用于执行物理层部分和上部的功能,以执行功能 在无线分组通信系统中的物理层上方的上层。 该方法包括:第一时钟提供步骤,用于在预定周期测量实际数据发送和接收速率,基于测量的速率建立第一时钟的频率(F1),并将第一时钟提供给上部和第二时钟 时钟提供步骤,确定所述无线分组通信系统的传送模式,检测根据所确定的传送模式选择的第二时钟的频率(F2),以及向所述下部提供所述第二时钟。